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294 lines
11 KiB
294 lines
11 KiB
4 years ago
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/** @file
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This file defines the SPI Configuration Protocol.
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Copyright (c) 2017, Intel Corporation. All rights reserved.<BR>
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD
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License which accompanies this distribution. The full text of the license may
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be found at http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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@par Revision Reference:
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This Protocol was introduced in UEFI PI Specification 1.6.
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**/
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#ifndef __SPI_CONFIGURATION_PROTOCOL_H__
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#define __SPI_CONFIGURATION_PROTOCOL_H__
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///
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/// Global ID for the SPI Configuration Protocol
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///
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#define EFI_SPI_CONFIGURATION_GUID \
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{ 0x85a6d3e6, 0xb65b, 0x4afc, \
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{ 0xb3, 0x8f, 0xc6, 0xd5, 0x4a, 0xf6, 0xdd, 0xc8 }}
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///
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/// Macros to easily specify frequencies in hertz, kilohertz and megahertz.
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///
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#define Hz(Frequency) (Frequency)
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#define KHz(Frequency) (1000 * Hz (Frequency))
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#define MHz(Frequency) (1000 * KHz (Frequency))
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typedef struct _EFI_SPI_PERIPHERAL EFI_SPI_PERIPHERAL;
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/**
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Manipulate the chip select for a SPI device.
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This routine must be called at or below TPL_NOTIFY.
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Update the value of the chip select line for a SPI peripheral.
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The SPI bus layer calls this routine either in the board layer or in the SPI
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controller to manipulate the chip select pin at the start and end of a SPI
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transaction.
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@param[in] SpiPeripheral The address of an EFI_SPI_PERIPHERAL data structure
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describing the SPI peripheral whose chip select pin
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is to be manipulated. The routine may access the
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ChipSelectParameter field to gain sufficient
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context to complete the operation.
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@param[in] PinValue The value to be applied to the chip select line of
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the SPI peripheral.
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@retval EFI_SUCCESS The chip select was set successfully
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@retval EFI_NOT_READY Support for the chip select is not properly
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initialized
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@retval EFI_INVALID_PARAMETER The SpiPeripheral->ChipSelectParameter value
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is invalid
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_SPI_CHIP_SELECT) (
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IN CONST EFI_SPI_PERIPHERAL *SpiPeripheral,
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IN BOOLEAN PinValue
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);
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/**
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Set up the clock generator to produce the correct clock frequency, phase and
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polarity for a SPI chip.
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This routine must be called at or below TPL_NOTIFY.
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This routine updates the clock generator to generate the correct frequency
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and polarity for the SPI clock.
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@param[in] SpiPeripheral Pointer to a EFI_SPI_PERIPHERAL data structure from
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which the routine can access the ClockParameter,
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ClockPhase and ClockPolarity fields. The routine
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also has access to the names for the SPI bus and
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chip which can be used during debugging.
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@param[in] ClockHz Pointer to the requested clock frequency. The clock
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generator will choose a supported clock frequency
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which is less then or equal to this value.
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Specify zero to turn the clock generator off.
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The actual clock frequency supported by the clock
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generator will be returned.
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@retval EFI_SUCCESS The clock was set up successfully
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@retval EFI_UNSUPPORTED The SPI controller was not able to support the
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frequency requested by CLockHz
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**/
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typedef EFI_STATUS
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(EFIAPI *EFI_SPI_CLOCK) (
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IN CONST EFI_SPI_PERIPHERAL *SpiPeripheral,
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IN UINT32 *ClockHz
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);
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///
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/// The EFI_SPI_PART data structure provides a description of a SPI part which
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/// is independent of the use on the board. This data is available directly
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/// from the part's datasheet and may be provided by the vendor.
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///
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typedef struct _EFI_SPI_PART {
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///
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/// A Unicode string specifying the SPI chip vendor.
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///
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CONST CHAR16 *Vendor;
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///
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/// A Unicode string specifying the SPI chip part number.
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///
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CONST CHAR16 *PartNumber;
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///
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/// The minimum SPI bus clock frequency used to access this chip. This value
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/// may be specified in the chip's datasheet. If not, use the value of zero.
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///
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UINT32 MinClockHz;
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///
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/// The maximum SPI bus clock frequency used to access this chip. This value
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/// is found in the chip's datasheet.
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///
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UINT32 MaxClockHz;
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///
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/// Specify the polarity of the chip select pin. This value can be found in
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/// the SPI chip's datasheet. Specify TRUE when a one asserts the chip select
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///and FALSE when a zero asserts the chip select.
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///
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BOOLEAN ChipSelectPolarity;
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} EFI_SPI_PART;
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///
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/// The EFI_SPI_BUS data structure provides the connection details between the
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/// physical SPI bus and the EFI_SPI_HC_PROTOCOL instance which controls that
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/// SPI bus. This data structure also describes the details of how the clock is
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/// generated for that SPI bus. Finally this data structure provides the list
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/// of physical SPI devices which are attached to the SPI bus.
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///
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typedef struct _EFI_SPI_BUS {
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///
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/// A Unicode string describing the SPI bus
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///
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CONST CHAR16 *FriendlyName;
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///
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/// Address of the first EFI_SPI_PERIPHERAL data structure connected to this
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/// bus. Specify NULL if there are no SPI peripherals connected to this bus.
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///
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CONST EFI_SPI_PERIPHERAL *Peripherallist;
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///
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/// Address of an EFI_DEVICE_PATH_PROTOCOL data structure which uniquely
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/// describes the SPI controller.
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///
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CONST EFI_DEVICE_PATH_PROTOCOL *ControllerPath;
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///
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/// Address of the routine which controls the clock used by the SPI bus for
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/// this SPI peripheral. The SPI host co ntroller's clock routine is called
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/// when this value is set to NULL.
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///
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EFI_SPI_CLOCK Clock;
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///
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/// Address of a data structure containing the additional values which
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/// describe the necessary control for the clock. When Clock is NULL,
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/// the declaration for this data structure is provided by the vendor of the
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/// host's SPI controller driver. When Clock is not NULL, the declaration for
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/// this data structure is provided by the board layer.
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///
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VOID *ClockParameter;
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} EFI_SPI_BUS;
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///
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/// The EFI_SPI_PERIPHERAL data structure describes how a specific block of
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/// logic which is connected to the SPI bus. This data structure also selects
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/// which upper level driver is used to manipulate this SPI device.
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/// The SpiPeripheraLDriverGuid is available from the vendor of the SPI
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/// peripheral driver.
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///
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struct _EFI_SPI_PERIPHERAL {
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///
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/// Address of the next EFI_SPI_PERIPHERAL data structure. Specify NULL if
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/// the current data structure is the last one on the SPI bus.
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///
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CONST EFI_SPI_PERIPHERAL *NextSpiPeripheral;
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///
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/// A unicode string describing the function of the SPI part.
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///
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CONST CHAR16 *FriendlyName;
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///
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/// Address of a GUID provided by the vendor of the SPI peripheral driver.
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/// Instead of using a " EFI_SPI_IO_PROTOCOL" GUID, the SPI bus driver uses
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/// this GUID to identify an EFI_SPI_IO_PROTOCOL data structure and to
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/// provide the connection points for the SPI peripheral drivers.
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/// This reduces the comparison logic in the SPI peripheral driver's
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/// Supported routine.
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///
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CONST GUID *SpiPeripheralDriverGuid;
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///
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/// The address of an EFI_SPI_PART data structure which describes this chip.
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///
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CONST EFI_SPI_PART *SpiPart;
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///
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/// The maximum clock frequency is specified in the EFI_SPI_P ART. When this
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/// this value is non-zero and less than the value in the EFI_SPI_PART then
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/// this value is used for the maximum clock frequency for the SPI part.
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///
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UINT32 MaxClockHz;
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///
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/// Specify the idle value of the clock as found in the datasheet.
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/// Use zero (0) if the clock'S idle value is low or one (1) if the the
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/// clock's idle value is high.
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///
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BOOLEAN ClockPolarity;
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///
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/// Specify the clock delay after chip select. Specify zero (0) to delay an
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/// entire clock cycle or one (1) to delay only half a clock cycle.
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///
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BOOLEAN ClockPhase;
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///
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/// SPI peripheral attributes, select zero or more of:
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/// * SPI_PART_SUPPORTS_2_B1T_DATA_BUS_W1DTH - The SPI peripheral is wired to
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/// support a 2-bit data bus
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/// * SPI_PART_SUPPORTS_4_B1T_DATA_BUS_W1DTH - The SPI peripheral is wired to
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/// support a 4-bit data bus
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///
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UINT32 Attributes;
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///
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/// Address of a vendor specific data structure containing additional board
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/// configuration details related to the SPI chip. The SPI peripheral layer
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/// uses this data structure when configuring the chip.
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///
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CONST VOID *ConfigurationData;
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///
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/// The address of an EFI_SPI_BUS data structure which describes the SPI bus
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/// to which this chip is connected.
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///
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CONST EFI_SPI_BUS *SpiBus;
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///
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/// Address of the routine which controls the chip select pin for this SPI
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/// peripheral. Call the SPI host controller's chip select routine when this
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/// value is set to NULL.
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///
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EFI_SPI_CHIP_SELECT ChipSelect;
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///
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/// Address of a data structure containing the additional values which
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/// describe the necessary control for the chip select. When ChipSelect is
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/// NULL, the declaration for this data structure is provided by the vendor
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/// of the host's SPI controller driver. The vendor's documentation specifies
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/// the necessary values to use for the chip select pin selection and
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/// control. When Chipselect is not NULL, the declaration for this data
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/// structure is provided by the board layer.
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///
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VOID *ChipSelectParameter;
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};
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///
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/// Describe the details of the board's SPI busses to the SPI driver stack.
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/// The board layer uses the EFI_SPI_CONFIGURATION_PROTOCOL to expose the data
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/// tables which describe the board's SPI busses, The SPI bus layer uses these
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/// tables to configure the clock, chip select and manage the SPI transactions
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/// on the SPI controllers.
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///
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typedef struct _EFI_SPI_CONFIGURATION_PROTOCOL {
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///
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/// The number of SPI busses on the board.
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///
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UINT32 BusCount;
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///
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/// The address of an array of EFI_SPI_BUS data structure addresses.
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///
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CONST EFI_SPI_BUS *CONST *CONST Buslist;
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} EFI_SPI_CONFIGURATION_PROTOCOL;
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extern EFI_GUID gEfiSpiConfigurationProtocolGuid;
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#endif // __SPI_CONFIGURATION_PROTOCOL_H__
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